# Simple C Program Approximating The Constant e

I am trying to create a program that approximates e (e=1+1/1!+1/2!+1/3!+...) to a limiting factor epsilon. The program should continue adding terms until the current statement becomes less than epsilon, where epsilon is a small (floating-point) number entered by a user.

I can write the program that approximates e to the nth term yet I am having trouble doing it to where it stops once the most recent term is less than epsilon.

Any help would be greatly appreciated.

``````#include <stdio.h>

int main(void)
{

int i=1,l;
float e,p,epsilon;

printf("Enter the value of epsilon: ");
scanf("%f", &epsilon);

for(;;)
{
p=1;
for(l = 1; l < 1; l--)
{
p*=l;
if (1/p<epsilon) {
goto done;
}
}

e+=1/p;
i++;
}

done:
printf("The value of e limited by epsilon is %f\n",e);

return 0;
}
``````
-
Your inner loop never executes: `1 < 1` is never true. Don't use single letter variable names, especially not lowercase L. –  pmg Apr 4 '12 at 13:27
Where is the factorial function call? –  Pavan Manjunath Apr 4 '12 at 13:28
In the absence of a strong reason not to use `double`, use `double` for floating point values. "Because my teacher told me to use `float`" is not a strong reason until you've tried (and failed) to convince the teacher `double` is better. –  pmg Apr 4 '12 at 13:32
what an odd construct, using an infinite loop and breaking out of it with a `goto`. Why don't you put the condition of `1/p<epsilon` into the `for`'s end condition? Why don't you break out with `last` (or is it `break`? I forget....)? –  Nathan Fellman Apr 4 '12 at 13:45
Having a configurable epsilon is probably useless. IMO it would be better to just loop until adding the next term does not change the value (a situation you'll arrive at very quickly). –  R.. Apr 4 '12 at 14:27

Here's my solution:

``````double eulersNumber(double epsilon)
{
double e = 0;
double factorial = 1;

for (int i = 1; TRUE; i++) {
double add = 1.0 / factorial;

break;

factorial *= i;
}

return e;
}
``````
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OP asked for help, not for a solution. –  Jan Apr 4 '12 at 13:58
@Jan true, but I say potato, you say potato. –  Richard J. Ross III Apr 4 '12 at 14:04
I am just learning c on my own and it actually not bad to have a solution to look over. Thanks! –  soulrain Apr 4 '12 at 14:40

``````double expo ( double x, double epsilon )
{
double sum=0;
unsigned i=0;
double fact=0;
double factorial=1;
while ( 1 )
{
fact=1/factorial;
if ((fact-epsilon) < 0.000001) /* Comparing doubles. Am I safe here? */
break;

sum+=fact;
i++;
factorial*=i;
}
return sum;
}
``````
-
you do realize that you can just use `factorial = 1` then `factorial = i*factorial; fact = 1/factorial`? –  UmNyobe Apr 4 '12 at 13:56
@UmNyobe Thanks for the suggestion. I edited my answer. –  Pavan Manjunath Apr 4 '12 at 14:10

Go to can be harmful and your use of it should be minimized. Your second loop will never execute, given that 1 is never less that 1. If you wanna break out of a loop like this, then a while construct is fine. Something along this lines:

``````while(1)
Do stuff until you get what you want. A second loop here should do.
break;
``````

Using this should make your program work.

-
I strongly disagree that goto should 'never' be used, If used properly, it can be very safe and much easier than other control systems. It is a part of the C language for a reason. With that said, I do agree using a goto here is a bit overkill. –  Richard J. Ross III Apr 4 '12 at 13:57
I agree, I think my use of the word never is a bit of an exaggeration. I will change my wording. –  n_x_l Apr 4 '12 at 14:01

You didn't initialize the variable `e`. Initialize the variable before entering the loop:

``````e = 1;
``````

You also probably meant to use the variable `i` to initialize `l` in the inner `for` loop. Loop conditional also seems to be reversed. Use

``````for(l = i; l > 0; l--)
``````

``````for(l = 1; l < 1; l--)
@soulrain, in the code you posted you declare `float e` and then go on accessing its uninitialized value by doing `e+=1/p;`. –  mizo Apr 4 '12 at 14:55